TY - GEN
T1 - Calculation of Water Age Using Electrical Simulators
AU - Balireddy, Raman
AU - Chakravorty, Anjan
AU - Kuiry, Soumendra Nath
AU - Abhijith, Gopinathan R.
AU - Ostfeld, Avi
N1 - Publisher Copyright: © 2024 ASCE.
PY - 2024
Y1 - 2024
N2 - The average time water takes from the source to the consumer is referred to as the "water age." It is a general indicator of water quality as it affects the disinfectant levels, microbial regrowth, and the contaminants' buildup. So, water suppliers strive to balance water age and quality to provide safe and reliable drinking water. Hydraulic modeling is the most straightforward way to determine water age. Several hydraulic simulation packages are available in the public and commercial domains for calculating the water age. In recent years, several researchers have used electrical simulators for water distribution network (WDN) analysis. The use of electrical simulators for water quality analysis has not yet been reported in the literature. This study proposes a methodological approach for calculating the water age for WDN in an electrical simulator. In this method, the initial water ages in reservoirs are replaced with voltage sources, nodal demands with current sources, and pipes with a new element called a "pipe delay." The value of pipe delay depends on the pipe parameters (e.g., length and diameter) and flow through the pipe. The applicability of the freely downloadable electrical simulator, QucsStudio, to calculate water age through Verilog-A code is demonstrated for several pipe networks. The results obtained from the hydraulic simulator, EPANET, are taken as benchmarks to verify the accuracy of the proposed methodology. The electrical simulator is shown to provide highly accurate results regarding water age at junctions.
AB - The average time water takes from the source to the consumer is referred to as the "water age." It is a general indicator of water quality as it affects the disinfectant levels, microbial regrowth, and the contaminants' buildup. So, water suppliers strive to balance water age and quality to provide safe and reliable drinking water. Hydraulic modeling is the most straightforward way to determine water age. Several hydraulic simulation packages are available in the public and commercial domains for calculating the water age. In recent years, several researchers have used electrical simulators for water distribution network (WDN) analysis. The use of electrical simulators for water quality analysis has not yet been reported in the literature. This study proposes a methodological approach for calculating the water age for WDN in an electrical simulator. In this method, the initial water ages in reservoirs are replaced with voltage sources, nodal demands with current sources, and pipes with a new element called a "pipe delay." The value of pipe delay depends on the pipe parameters (e.g., length and diameter) and flow through the pipe. The applicability of the freely downloadable electrical simulator, QucsStudio, to calculate water age through Verilog-A code is demonstrated for several pipe networks. The results obtained from the hydraulic simulator, EPANET, are taken as benchmarks to verify the accuracy of the proposed methodology. The electrical simulator is shown to provide highly accurate results regarding water age at junctions.
UR - http://www.scopus.com/inward/record.url?scp=85194418425&partnerID=8YFLogxK
U2 - https://doi.org/10.1061/9780784485477.114
DO - https://doi.org/10.1061/9780784485477.114
M3 - منشور من مؤتمر
T3 - World Environmental and Water Resources Congress 2024: Climate Change Impacts on the World We Live In - Proceedings of the World Environmental and Water Resources Congress 2024
SP - 1276
EP - 1284
BT - World Environmental and Water Resources Congress 2024
A2 - Handa, Saki
A2 - Montgomery, Rob
A2 - Sutter, Carl
T2 - 2024 World Environmental and Water Resources Congress: Climate Change Impacts on the World We Live In
Y2 - 19 May 2024 through 22 May 2024
ER -
